Studium kmenových buněk odvozených z varlat Xenopus tropicalis / The study of Xenopus tropicalis testis-derived stem cells

Nguyen, Thi Minh Xuan

January 2019

The study of Xenopus tropicalis testis-derived stem cells Nguyen Thi Minh Xuan Abstract The substances secreted by Sertoli cells (SCs) are crucial to determine male sex characteristics in embryos and regulate spermatogenesis in adulthood. The failure in SC maturation can cause sterility in men. Before puberty, SCs keep the ability to proliferate and have been considered as immature cells. They differ remarkably from mature cells in connection with their morphology and biochemical activity and thus they probably play a part in maintaining spermatogonia stem cells in an undifferentiated stage. The transient presence of cytokeratin in immature SCs has been reported in many species, but not in Xenopus yet. We investigated which molecules are expressing only in immature Sertoli cells of X. tropicalis testes. The regulation of cytokeratin and β-catenin was revealed by fluorescent immunostaining. Cytokeratin and membrane β-catenin co- expressed in X.tropicalis juvenile testes and in cultured SC progenitors, called XtiSCs, but they were absent in adulthood. There was no signal of cytokeratin in migrating SCs (pre-SCs) located outside the seminiferous tubules. The suppression of cytokeratin along with the breakdown of β-catenin-based cell contacts have been observed in XtiSCs after the treatment with a small...

Functional Analysis of the Sex Related Gene dmrt1 in Xenopus / Mechanistic investigation of the sex related gene dmrt1 in African clawed frogs (Xenopus) evidences both neofunctionalization and subfunctionalization

Kukoly, Lindsey

11 1900

Sex determination is a key developmental process in several species regulated by sexrelated transcription factors. In many species a gene called doublesex and mab-3 related transcription factor 1 (dmrt1), plays an important role in sexual differentiation. I used African clawed frogs (Xenopus) to examine function of dmrt1 in two species: a diploid species, X. tropicalis, and an allotetraploid species, X. laevis. In both species, dmrt1 is an autosomal gene; Xenopus tropicalis has one copy of dmrt1 and X. laevis has two homeologous copies that by definition are derived from whole genome duplication: dmrt1.L and dmrt1.S in X. laevis. We generated knockouts of each of these genes to further examine their function in sexual differentiation. Histological examination showed testicular dysgenesis in X. tropicalis dmrt1 and X. laevis dmrt1.L null males whereas dmrt1.S null males presented no obvious difference in sperm density compared to wildtype males. X. tropicalis dmrt1 and X. laevis dmrt1.L null females were found to completely lack reproductive organs and are infertile whereas dmrt1.S null females appeared unaffected. The contrasting results between dmrt1.L and dmrt1.S in X. laevis provides evidence of both neofunctionalization and subfunctionalization following gene duplication and suggest that gene duplication is a major contributor to evolutionary change. Additional investigation of the transcriptome of these frogs and the role of dmrt1 in the secondary sex characteristic vocalization provides further evidence of the role of dmrt1 in development. Comprehensively, this investigation provides further knowledge of the role of dmrt1 and homeologs of this gene in sexual differentiation and introduces a novel aspect of this gene in female development. Future efforts are focused on generating double knockouts for dmrt1.L and dmrt1.S, further examining the role of dmrt1.S in somatic cell function and developing additional mutant lines in other Xenopus for comparative analysis. / Thesis / Master of Science (MSc) / In many species sexual differentiation is a crucial developmental event. Surprisingly, however, the systems orchestrating sexual differentiation are highly variable among species. The doublesex and mab-3 related transcription factor 1 (dmrt1) gene plays a role in sexual differentiation in many groups, but its specific roles in this process are incompletely characterized and potentially diverse. We used genetic engineering in two species of African clawed frog (Xenopus) to disable function of dmrt1 in order to explore effects on gonadal development and the development of secondary sex characteristics. We found that dmrt1 is required for normal ovary or testis development in both Xenopus species, and that functional divergence occurred following duplication of dmrt1 by whole genome duplication. Taken together, these findings identify previously uncharacterized roles of dmrt1 in Xenopus and provide evidence of dynamic functional evolution of this important gene.

Xenopus laevis

Xenopus tropicalis

Sex determination

Evolutionary genetics

Endocrine Disruption in Amphibians : Developmental Effects of Ethynylestradiol and Clotrimazole on the Reproductive System

Gyllenhammar, Irina

January 2008

Amphibian populations are declining world-wide and one of the suggested reasons is environmental pollutants. Studies of long-term effects on the reproductive system in frogs following larval exposure to environmental pollutants are scarce. It is therefore important to develop methods to study developmental reproductive toxicity in amphibians. In this thesis the usefulness of Xenopus tropicalis (the West African clawed frog) as a model species for a test system was investigated. Effects on the reproductive system after larval exposure to the pharmaceuticals ethynylestradiol (EE2) and clotrimazole were evaluated. The susceptibility to EE2 exposure was compared between the model species and a wild species, the European common frog (Rana temporaria). Larval exposure to EE2 caused female-biased sex ratios in both examined frog species, indicating male-to-female sex-reversal. In adult Xenopus tropicalis, male frogs that were not sex-reversed had reduced fertility and decreased amount of mature spermatozoa in the seminiferous tubules. The proportion of frogs with ovaries but lacking oviducts increased with increasing EE2-concentrations. A female frog without oviducts is sterile. The development of ovaries in sex-reversed male frogs was implied to be similar to control females. The combination of a reduced number of males, due to sex-reversal, and impaired fertility could have severe effects on frog populations. Larval exposure to clotrimazole modulated aromatase activity in gonads and brain in Xenopus tropicalis. Brain aromatase activity was decreased at the time for gonadal differentiation and gonadal aromatase activity was increased at metamorphosis. The findings in this thesis indicate that reproduction in wild frogs might be impaired by estrogenic compounds in the environment. The results combined with the short generation time supports the use of Xenopus tropicalis as a model species when evaluating long term effects of endocrine disruptors on the reproductive system in amphibians.

Test system

Xenopus tropicalis

Rana temporaria

sex ratio

sex differentiation

fertility

aromatase

ovary

testis

oviduct

Biology

Biologi

Příprava transgenní kultury testikulárních kmenových buněk Xenopus tropicalis. / Preparation of Xenopus tropicalis transgenic testicular stem cell culture.

Vegrichtová, Markéta

January 2014

Testicular stem cells (TSCs) are relatively accessible potential source of pluripotent cells, which are particularly important for their application in regenerative medicine. Xenopus tropicalis is a useful model organism to study the migration and differentiation potential of stem cells. This amphibian is characteristic by outer fecundation and embryonic development of a great amount of embryos after fertilization. Oocytes and embryos are large enough (about 1 mm) to be suitable for micromanipulation micromanipulations. Laboratory of Developmental Biology, Faculty of Science, Charles University in Prague succeeded in the establishment of a mixed cell culture of TSCs growing on feeder layer of pre- Sertoli cells. This culture was derived from the testes of juvenile Xenopus tropicalis male. In the study of their differentiation potential it was found, that leukemia inhibitory factor (LIF) is the decisive factor allowing rapid proliferation of stem cells and their forming into characteristic colonies. This protein is produced by both types of cells which are present in the culture. The mouse LIF has the same positive effect on the proliferative potential of stem cells, which points at the evolutionary conservation of metabolic pathways associated with the maintenance of the stemness. RT-PCR analysis...

Indukce diferenciace testikulárních kmenových buněk Xenopus tropicalis in vitro. / Induction of Xenopus tropicalis testicular stem cell differentiation in vitro.

Strnadová, Karolína

January 2016

Origin of mammalian somatic cells in the developing testes remains unclear. This origin could be explained by established cell culture derived from testes of Xenopus tropicalis juvenile male. The expression profile of the cell culture showed transcription of some pluripotency genes, somatic Sertoli and peritubular myoid cell markers and last but not least, the mesenchymal stem cell markers. Conversely, germ cell genes were downregulated. Immunocytochemical analysis revealed expression of Vimentin, Sox9 and α-smooth muscle actin, indicating that the testicular cell culture is a common mesenchymal progenitor of the Sertoli and peritubular myoid cells and that the cell culture did not arise from spermatogonial stem cells undergoing incomplete reprogramming in vitro. Testing of X. tropicalis cell culture during induction of differentiation in vitro revealed that these cells are probably multipotent with the ability to differentiate into adipocytes, chondroblasts and osteoblasts. The ability to derive multipotent stem cells from the juvenile testes opens new possibilities of using these cells for biotechnology and medicine. Keywords: Testicular somatic cells, Xenopus tropicalis, progenitor, mesenchymal stem cells, induction of differentiation, multipotency

Addressing Amphibian Decline Through the Amphibian Conservation Action Plan

Fenolio, Dante Bruce

21 May 2009

The amphibian decline phenomenon now involves in excess of a third of the roughly 6000 species of amphibians on the planet. The problems that drive the declines are diverse with no end in sight. The Amphibian Conservation Action Plan (ACAP) aims to stem amphibian decline through four recommended actions by researchers and conservation biologists: (1) Expand scientific understanding of amphibian declines and extinctions; (2) continue to document amphibian diversity and ecology and how they are changing; (3) develop and implement long-term conservation programs; (4) prepare emergency response actions for eminent crises. This Dissertation focused on two of those recommendations: expanding scientific understanding of amphibian declines and extinctions and continuing to document amphibian diversity and ecology and how they are changing. The first chapter is a review of the amphibian decline phenomenon. The second, third, and fourth chapters focus on expanding scientific understanding of amphibian diversity and ecology with the description of a formerly unknown species (chapter 2), and ecological papers on two poorly known species (chapters 3 and 4). Chapter five focuses on the first ACAP recommendation in improving scientific understanding of the causes behind amphibian decline. The chapter is an experimental examination of two related species and their developmental reactions to common heavy metal contaminants. The goal of this Dissertation is to contribute toward the general amphibian knowledge base relative to the recommendations of ACAP.

In vitro diferenciace testikulárních somatických buněk Xenopus tropicalis a Mus musculus. / In vitro differentiation of Xenopus tropicalis and Mus musculus testicular somatic cells.

Hlaviznová, Michaela

January 2021

Sertoli cells (SCs) are somatic cells of testicular tissue that are involved in spermatogenesis and maturation of germ cells. They are currently being extensively studied for their immunomodulatory abilities, and recent studies have shown that they share some properties with mesenchymal stromal cells (MSCs). Detailed characterization of SCs and clarification of their role in testicular tissue is crucial for potential use of SCs as a therapeutic tool in regenerative medicine. Cell culture of Xenopus tropicalis immature Sertoli cells (XtiSCs) and Mus musculus (mSCs) Sertoli cells were established in the Laboratories of Developmental Biology and Immunoregulations, Faculty of Science, Charles University. Previous research has characterized XtiSCs and demonstrated their multipotent potential by in vitro differentiation into a mesodermal line. Following this research, one of the goals of the diploma project was the induction of in vitro differentiation of XtiSC into other cell types, which would verify the differentiation potential of XtiSCs. The mSC expression profile confirmed the somatic origin of this culture as well as the transcription of Sertoli cell gene markers. Differentiation of mSCs along the mesodermal line into osteoblasts, chondrocytes and adipocytes has been successfully induced in vitro....

Diferenciace progenitorů Sertoliho buněk a příprava testikulárních 3D kultur Xenopus tropicalis. / Differentiation of Sertoli cell progenitors and preparation of testicular 3D cultures of Xenopus tropicalis.

Slováková, Lucie

January 2021

Sertoli cells represent the only somatic cell type within the seminiferous tubules with direct contact to germ cells. Sertoli cells significantly contribute to the development of the testicular niche in a male embryo. Their role during postnatal life is in the regulation and nutrition of germ cells and the formation of the blood-testis barrier to protect these cells. In our laboratory, we have been successful in establishing a cell line of X. tropicalis immature Sertoli cells (XtiSCs) derived from juvenile testes of X. tropicalis. The objective of this thesis was to induce the differentiation process of XtiSCs into mature Sertoli cells. In vitro experiments using several factors or primary culture from adult male X. tropicalis did not show any mature markers in differentiated XtiSCs. Another experiment using cell culture derived from pubertal mice was partially successful in the induction of the differentiation process. These results indicate that XtiSCs do have some differentiation potential into mature Sertoli cells. Part of this work was to test the ability of testicular cells isolated from juvenile males of X. tropicalis to form de novo organoids. In vitro experiments were successful when these cells were cultured in a three-layer matrigel.

Genetické mapování u rodu Xenopus / Genetic mapping in Xenopus

Seifertová, Eva

January 2014

The diploid amphibian Xenopus tropicalis represents a significant model organism for studies of early development, genes function and evolution. Such techniques as gynogenesis, injection of morpholino antisense oligonucleotide into fertilized eggs or transgenesis were established. In the recent ten years, many efforts have been made to complete the sequence information. X. tropicalis genome has been sequenced but the completion of its assembly only on the basis of sequence data has been impossible. Therefore, our first work was focused on one of approaches for a genome completing- genetic mapping. First of all, the genetic map of Xenopus tropicalis was established pursuant linkage and physical positions of markers. Since the map contained gaps, we developed a new method for genetic mapping based on the next generation sequencing of laser microdissected arm. Using Illumina next generation sequencing of fifteen copies of a short arm of chromosome 7, we obtained new insights into its genome by localizing previously unmapped genes and scaffolds as well as recognizing mislocalized portions of the genome assembly. This was the first time laser microdissection and sequencing of specific chromosomal regions has been used for the purpose of genome mapping. These data were also used in the evolution study of...